Air shock absorber with smart suspension system with height adjustment without losing comfort and safety

ABSTRACT

The smart suspension is compilation of air coils (air cylinder and air piston) as well as smart hydraulic shock absorber that in respect their roles are making comfort and improving vehicles balance. Regardless of the vehicle, the height adjustment system being used in smart suspension, adjusts the height and has the ability to drive in any desirable heights without losing a bit of comfort and safety (lowest to the highest elevations). There are two manual and automatic height adjustment systems, automatic system is being activated by disembarking passengers and manual system is set using the electronic key. These changes can range from 1 mm to 20 cm which in both conditions there would be no change in safety or any uncomfortable feeling.

BACKGROUND OF THE INVENTION

Hydraulic suspension systems are similar inventions, they all act as an active body control and can adjust the height, which big companies all around the world put their own name on them such as ABC or Active Body Control. There has been 6 decades since its generation, but the evolution continues until the difficulties to be solved.

Idea of using Hydraulic systems for vehicles suspension mechanism was first discussed in Citroen Car Company in 1952. Designers of this company used all hydraulic mechanisms ever invented in manufacturing the Citroen DS219.

The principles of hydraulic suspension system, sometimes known as hydro pneumatic, are based on compressibility of gases and non-compressibility of liquids. Each used kickstand being used in suspension system replacing normal springs/coils consists of one simple cylinder, one simple piston, and one storage or warehouse which is under pressure of nitrogen gas and is being installed on top of the kickstand.

Hydraulic oil can move back and forth between kickstand and storage. The auto body weight causes piston rise in cylinder resulting oil emission from kickstand and its entrance to the storage. With the addition of oil into the store, nitrogen gas-locked inside-density increases in order to reach equilibrium with the weight of the car.

Thus the locked nitrogen gas acts like a coil/spring. By placing an orifice (narrow channel) between piston and storage we can decrease the velocity in pistons and absorb the uneven impact impulses—in conventional vehicles this action is carried out by shock absorbers.

But the system has some shortcomings and weaknesses as follow:

-   -   High maintenance costs     -   High production costs     -   Vehicle confusion in consecutive loops     -   Mal functioning in bumps in high speeds     -   Using significant portion of motor energy on system performance     -   Debility in adjusting the vehicle's height as it is moving or         lack of driving ability at different heights (according to         manufacturers, this system can adjust vehicles height but due to         the loss of driving comfort and safety cannot move other than         the standard heights).

SUMMARY OF THE INVENTION

In this system, each of the four Shock Absorbers and springs/coils are individually controlled by electronic control unit. In this case, the sensors mounted in each wheel give the momentary reports about the vehicle and state of the road to the control unit. Thus, comparing to vehicles using ABC, the vehicles that are equipped with this system have lower fuel consumption and more power engine. For a better understanding, in stable auto conditions (such as highways, straight paths) using signals from sensors the system sends commands which could increase the flexibility of air coils and cause superior comfort.

However if the sensors transmit information including imbalance vehicle or entering a hairpin, the control unit takes control of each four wheel, the coils/springs, and shock absorbers in order to pass the encountered crisis. Another advantage of this system is that when the driver is forced to make a severe and sudden brake the system prevents the front parts of the car to move downwards and keeps the car balanced.

Scientific basis of this system is the centrifugal force. Due to the effect of this force, cars tend to reduce height in every curve and falloff the path. If we could stop the height reduction then we can prevent misbalancing and falling-off's as well.

In this system each wheel and coil are being checked individually and are equipped with a smart barometer.

In other words, although it is a great comfort it also provides safety to the vehicle. On the other hand this system is capable of driving in any desirable height without loss of comfort and safety.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1; is a smart air shock absorber system that components are presented individually.

FIG. 2; Represents the relationship between system components and electronic control unit (ECU).

DETAILED DESCRIPTION OF PREFERRED EMBODIMENT

The main objective of this invention is to improve safety and bring balance to the vehicle in any conditions and also we should mention that this comfort comes with balance. On the other hand adding height adjustment ability doesn't reduce safety and comfort of the passengers.

This system delays the vehicle to reach the critical point by keeping safety and comfort together (the point after that the vehicle rollovers). It means vehicles equipped with this system won't rollover.

Comfort and safety are two main components in suspension systems that are incompatible with one another; it means increasing one component will cause another to decrease.

Another objective is keeping comfort in any conditions. The vehicle comes with grate comfort since air coils are being used in this system. But because of the variable valves used in it, there would be no change in the vehicle's safety.

One of the other goals here would be driving in any desirable heights without losing comfort or safety. In current systems equipped with adjustable height, length of the coils change respectively that would reduce the safety of the vehicle; but the height adjustment system operates separately, so both comfort and safety remains intact.

LIST OF SUSPENSION ELEMENTS

-   -   1: Smart barometer junction: it is located in the upper part of         the shock absorber (29 a, 29 b, 29 c and 29 d) and being used to         compress air into the shock absorber.     -   2: Peking rubber: this piece seals the space between air         cylinder 4 and air piston 40.     -   3: Oil Piston: this part is responsible for maintenance valves         11.     -   4: Air cylinder: This item is used for storage of air in shock         absorber and is a place for movement of air piston 40.     -   5: Body of kickstand: this item is a place for movement of the         shock absorber 29 (29 a, 29 b, 29 c and 29 d) inside it and         leads to height adjustment.     -   6: Entrance or exit for kickstand oil: by oil entering into the         body of kickstand 5 the height of coils/springs and shock         absorbers increases. By oil exclusion the height decreases.         Consequently, since coil/spring height never change, the comfort         and safety of the vehicle remains intact.     -   7: O-ring: this item is used for sealing top of shock absorber         29 (29 a, 29 b, 29 c and 29 d).     -   8: Oil: its task is to oil air piston 40.     -   9: Input air to the air cylinder: its location is in air         cylinder 4 and is used as air entrance or exclusion for cylinder         4.     -   10: Oil ring: its task is to oil air piston 40 with oil 8.     -   11: Smart valves: these valves come in different kind and may         vary according to the vehicles conditions, and also are         responsible for the vehicles comfort.     -   12: Compressed air: This air plays role of coil in this shock         absorber.     -   13: Fluid (or oil) of shock absorber: this item lubricates the         oil piston 3 and helps keeping safety and comfort with the smart         valves 11.     -   14: Fluid or oil of kickstand: this item enters and exits in and         out of the body of kickstand 5 which leads to height adjustment.     -   15: Set of shock absorbers without the kickstand: This item         keeps the suspension of automobile in place and maintains the         safety and comfort of automobile and its passengers and adjusts         the height automatically.     -   16: Set of kickstand: This part includes body of kickstand 5 and         the lower part of the body of shock absorbers set without the         kickstand 15. It is used for manual height adjustment.     -   17 a, 17 b, 17 c and 17 d sensors: these pieces send momentary         information about road and vehicles condition to the control         unit 41.     -   18: Exhaust: this part is responsible for silent departure of         compressed air 12 out of the shock absorbers 29 (29 a, 29 b, 29         c and 29 d).     -   19: Manual height adjustment chassis: by his chassis height         adjustment is done manually.     -   20: Control cables of smart valves 11: it connects smart valves         11 to control unit 41.     -   21 a, 21 b, 21 c and 21 d smart barometer: it checks shock         absorber's pressure of air cylinder 4.     -   22: Air pipe to the exhaust from shock absorber: shock absorbers         29 (29 a, 29 b, 29 c, 29 d) and exhaust 18 connector. This part         is a way to offloading air from shock absorbers 29 (29 a, 29 b,         29 c, 29 d) to exhaust 18.     -   23: control cable of Smart barometer: these cables connect smart         barometers 21 (21 a, 21 b, 21 c and 21 d) and control unit 41.     -   24: Air transmission pipes: these pipes transfer compressed air         from air tank 26 into the shock absorbers 29 (29 a, 29 b, 29 c         and 29 d).     -   25: Air pump: This device is responsible for air compression and         transfers it into the air tank 26.     -   26: Compression air tank: this is the place to store compressed         air.     -   27: Evacuation pipe of exhaust: this part transfers air from         exhaust 18 to the environment. It is a separate pipe from the         air pipe to the exhaust from the shock absorber 29.     -   28: Tire: The car weight is on this part.     -   29 a, 29 b, 29 c and 29 d shock absorbers set: these absorber         sets include set of shock absorber without kickstand 15 and set         of kickstand 16. Therefore they perform the functionality of         both elements 15 and 16 as a unit.     -   30: Control cable of oil pump: this cable connects oil pump 33         and control unit 41.     -   31: Oil transmission pipes: this pipe transfer's oil pump 33 and         kickstand 16.     -   32: Control cable of air pump: this cable connects air pump 25         and control unit 41.     -   33: Oil pump: this piece is responsible for pumping oil into         kickstand 16 in order to increase the height.     -   40: air piston     -   41: control unit: this part controls all parts of the system.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

For better understanding, we will illustrate the system performance from the beginning—embarking passengers—till the vehicles enters road curve:

After embarking and additional weight imposture on the vehicle, the air piston 40 decreases the volume of air cylinder 4 which leads to increase in the pressure of the compressed air 12 in the air cylinder 4 and activates the smart barometers 21 a, 21 b, 21 c and 21 d. Since the smart barometers detect the passengers embarking and the decrease in vehicle's height, it sends some information to the control unit 41; control unit 41 then sends compressed air into the air pipes 24 from air tank 26 into the air cylinder 4. With this command the vehicle's height returns into its first mode.

This will be vice versa when disembarking happens. It means, because of the high pressure air in the cylinder 4 and the air piston 40 tends to rise and increase the volume of air cylinder 4 and decreases the air pressure. In this situation the height of the vehicle will increase as well, and consequently; as a result smart barometers 21 a, 21 b, 21 c and 21 d evacuate air from the air cylinder 4 into the exhaust 18, using special pipes 22 (by control of control unit 41). Now the height goes back to normal.

Till now all height adjusting was automatic (the driver didn't have any control over it)—due to the constant coil length the height was balanced. On the other hand, this vehicle is capable of being controlled/adjusted manually.

Since by adjusting the height, the coils length would be affected as well (the length of the coils is an important component in the vehicles balance and comfort), in other suspension systems with manually adjustable height the comfort sacrificed for height adjustment.

But in this system—manual—the coil and the shock absorber set 15 are separated so that any change in the height won't affect the coil's length (series of hydraulic kickstands 16). That is, if the driver decided to increase (or decrease) the height of their vehicle, they would activate the vehicle's oil pump 33 by pressing just a chassis 19 that connects to the control unit 41; and oil 14 will be pumped through special pipes 31 or kickstand 16 via entrance or exclusion for kickstand oil 6. When oil 14 enters into the kickstand 16 an increase in the pressure of oil 14 is displayed (this pressure is delivered from oil pump 33) and leads to move up the shock absorbers set 15 and therefore increase the height.

In the height reduction mode, oil 14 exits out from kickstand 16 and the explanation above is reversed. By pressing chassis 19 and evacuating the kickstand oil 14 during reducing the height, the coil and shock absorber will also reduce in length, and again the comfort and safety remains intact.

In other words, this time the length of the coils and shock absorbers at any desired heights will not sacrifice for comfort and safety. Yet another advantage of this system is the ability to balance the vehicles in varied conditions.

Imagine the vehicle enters a curve to the right side; in other suspension systems due to the centrifugal force, the right side rises and the left side of the vehicles reduces in the height, so the vehicle would lose its balance. But in this system everything differs because of the smart shock absorbers.

In other suspension systems, there are some shock absorbers in every valve that helps the liquid move in these valves. Much larger valves, comes with great comfort and of course less balance; instead, smaller valves decrease the comfort and increase the balance of the vehicle. But in this system the system automatically varies the size of the valves in order to control them.

Let's get back to the above example, by entering into the curve the mounted sensors 17 a, 17 b, 17 c and 17 d report the situation to the control unit 41; as a result, the control unit 41 decides to constrict or even close the smart valve 11 of the left shock absorbers 29 c and 29 d in order to avoid decrease in the left side's height; and loosens the right valves so that the vehicle could keep its balance.

But under normal conditions, such as highways with almost no curves, according to the reports from sensors the system decides to automatically loose the valves—all wheels—in order to bring great comfort.

However during sudden braking (sent by sensors) the system automatically constricts the front shock absorbers 29 b and 29 d so that prevent sudden change in the height and keep the balance.

In this system, components are made of oil pump 33, air pump 25, air cylinder 4 and oil piston 3, air piston 40, sensors 17 a, 17 b, 17 c and 17 d, electronic control unit 41, air output exhaust 18, smart valves 11, and so on.

It is understood that the above description and drawings are illustrative of the present invention and that changes may be made in materials, method steps without departing from the scope of the present invention as defined in the following claims. 

1- An air shock absorber with smart suspension system with height adjustment for different vehicles comprising: Four shock absorbers; a smart barometer junction which is located in an upper part of each of said four shock absorbers comprising smart valves; said smart barometer junction compresses air into said four shock absorbers; spring/coils; a pecking rubber which seals a space between an air cylinder and an air piston; an oil piston where said air piston moves back and forth and wherein said oil piston acts as an storage of said air for said four shock absorbers; body of kickstand is a place for movement of said four shock absorbers which leads to said height adjustment; an in and out opening of kickstand body; wherein when oil is forced into said kickstand body a height of said coils/springs and said four shock absorbers increases and when said oil exits from said kickstand body through said in and out opening of said kickstand body said height decreases, and therefore comfort and safety of said vehicle remains intact; O-rings which seal said four shock absorbers; an oil ring oiling said air piston; said four shock absorbers comprising a shock absorber fluid lubricating said oil piston; said four shock absorbers comprising a frontal end and distal end wherein said frontal end does not comprise said kickstand and wherein said distal end comprises said kickstand and wherein said frontal end keeps a suspension of said vehicle in place and maintains said safety and comfort of said vehicle and passengers and adjusts said height automatically; at least four sensors mounted on each wheel of said vehicle and wherein said four sensors send information of road and condition of said vehicle to a control unit; an exhaust wherein said compressed air is silently moved out of said four shock absorbers; at least four smart barometers checking an air pressure of said air cylinder; an air pump; an oil pump, where said oil is pumped into said kickstand increasing said height. 2- An air shock absorber with smart suspension system with height adjustment of claim 1, wherein said system further comprises a manual height adjustment chassis. 3- An air shock absorber with smart suspension system with height adjustment of claim 2, wherein said system improves said safety and brings balance to said vehicle in any condition and therefore increases said safety of said passengers. 4- An air shock absorber with smart suspension system with height adjustment of claim 3, wherein each of said wheels and said coil are being checked individually and are equipped with one of said four smart barometers. 5- An air shock absorber with smart suspension system with height adjustment of claim 4, wherein if said four sensors transmit information including imbalance of said vehicle or entering a hairpin, said control unit takes control of each of said wheels, said coils/springs, and said four shock absorbers in order to pass an encountered crisis. 6- An air shock absorber with smart suspension system with height adjustment of claim 5, wherein when a driver is forced to make a severe and sudden brake said system prevents front parts of said vehicle to move downwards and keeps said vehicle balanced. 7- An air shock absorber with smart suspension system with height adjustment of claim 6, wherein said system is capable of driving and monitoring said vehicle in any desirable height without loss of said comfort and said safety; wherein said system further provides an ability of manual control of said vehicle if needed. 8- An air shock absorber with smart suspension system with height adjustment of claim 7; wherein said system further comprises lack of use of spiral springs (common springs) and therefore said compressed air controls said comfort level and replaces a need for said spiral springs. 9- An air shock absorber with smart suspension system with height adjustment of claim 8, wherein said system has low maintenance, low production, low repair and installation costs. 10- An air shock absorber with smart suspension system with height adjustment of claim 9, wherein after said passengers board said vehicle said air piston decreases a volume of said air cylinder which leads to increase in said pressure of said compressed air in said air cylinder and therefore activates said four smart barometers; wherein said four smart barometers detect a decrease in said vehicle height due to boarding of said passengers and sends this change to said control unit; and therefore said control unit sends said compressed air into air pipes from an air tank into said air cylinder; wherein said compressed air increases said vehicle's height and therefore repositions said vehicle's height to its pre-boarding of said passengers. 11- An air shock absorber with smart suspension system with height adjustment of claim 10; wherein when disembarking of said passengers occurs, due to high pressure of said air in said air cylinder, said air piston tends to rise and therefore said volume of said air cylinder increases and therefore said air pressure decreases; therefore said height of said vehicle increases and as a result said control unit controls said four smart barometers to evacuate said air from said air cylinder into an exhaust via air pipes connecting said exhaust to said four shock absorbers, reducing said height of said vehicle to said pre-boarding position. 12- An air shock absorber with smart suspension system with height adjustment of claim 11; wherein when said system is functioning in said manual mode said oil pump is activated by pressing said chassis that connects to said control unit and said oil will be pumped into oil transmission pipes or kickstand; wherein when said oil enters into said kickstand an increase in pressure of said oil will be displayed and therefore at least four of shock absorbers sets will move up and therefore said height of said vehicle is increased. 13- An air shock absorber with smart suspension system with height adjustment of claim 12, wherein when system is in manual mode and during reduction of said height of said vehicle, said oil exits out from said kickstand and by pressing said chassis a length of said coil and said four shock absorbers will be reduced resulting in said height reduction of said vehicle. 